Assessing the performance of ionic liquid-assisted minimum quantity lubrication during machining of biomedical-grade stainless steel with recently developed AlTiN/TiSiXN-coated carbide tool

This research explores the cutting performance of newly developed DURANA (AlTiN/TiSiXN)-coated carbide tool and investigates the lubrication–cooling performance of ionic liquid-based lubricants for improving the machinability of biomedical-grade stainless steel under sustainable minimum quantity lub...

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Bibliographic Details
Published in:Journal of the Brazilian Society of Mechanical Sciences and Engineering 2024-09, Vol.46 (9), Article 578
Main Authors: Das, Anshuman, Raman, Rajan, Roy, Soumikh, Gajrani, Kishor Kumar, Ghosh, Sachidananda, Das, Sudhansu Ranjan
Format: Article
Language:English
Subjects:
Carbide tools
Contact angle
Cutting force
Cutting parameters
Cutting wear
Engineering
Integrity
Ionic liquids
Lubricants
Lubricants & lubrication
Lubrication
Machinability
Mechanical Engineering
Mechanical properties
Microhardness
Morphology
Performance assessment
Residual stress
Stainless steel
Stainless steels
Surface roughness
Technical Paper
Thermal conductivity
Thermal resistance
Thrust
Tool wear
Tribology
Turning (machining)
Wear resistance
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Summary:This research explores the cutting performance of newly developed DURANA (AlTiN/TiSiXN)-coated carbide tool and investigates the lubrication–cooling performance of ionic liquid-based lubricants for improving the machinability of biomedical-grade stainless steel under sustainable minimum quantity lubrication. This article also explores comparative performance assessment between two different ionic liquid-based lubricants (1-methyl 3-butylimidazolium tetra fluoroborate, BMIM BF4) and (1-methyl 3-butylimidazolium hexafluorophosphate, BMIM PF6). Technological performance characteristics such as cutting force and thrust force, flank and crater wear, surface integrity (surface roughness, surface morphology, residual stress, microhardness), chip morphology, and cutting temperature are taken into account when evaluating the machinability of biomedical-grade stainless steel. In addition, the study analyses the thermo-physical and tribological properties of ionic liquid (IL)-based lubricants for machining. The lubricant based on BMIM PF6 IL exhibited an improved wear resistance of coated tool, higher viscosity as well as thermal conductivity with minimal contact angle in comparison with the lubricant based on BMIM BF4. Due to the development of improved chip morphology, lower cutting forces and minimum cutting temperature, enhanced machined surface integrity, and decreased tool wear, the turning with BMIM PF6 IL-based lubricant committed superior than BMIM BF4-based lubricant.
ISSN:1678-5878
1806-3691
DOI:10.1007/s40430-024-05169-2